Al-Ghouti MA, Al-Absi RS (2020): Mechanistic understanding of the adsorption and thermodynamic aspects of cationic methylene blue dye onto cellulosic olive stones biomass from wastewater. Scientific Reports 10, 15928
Al-Ghouti MA, Da'ana DA (2020): Guidelines for the use and interpretation of adsorption isotherm models: A review. Journal of Hazardous Materials 393, 122383
Alinnor IJ (2007): Adsorption of heavy metal ions from aqueous solution by fly ash. Fuel 86, 853-857
Apak R, Güçlü K, Turgut MH (1998): Modeling of Copper (II), Cadmium (II), and Lead (II) Adsorption on Red Mud. Journal of Colloid and Interface Science 203, 122-130
Bartczak P, Norman M, Klapiszewski Ł, Karwańska N, Kawalec M, Baczyńska M, Wysokowski M, Zdarta J, Ciesielczyk F, Jesionowski T (2018): Removal of nickel (II) and lead (II) ions from aqueous solution using peat as a low-cost adsorbent: A kinetic and equilibrium study. Arabian Journal of Chemistry 11, 1209-1222
Bayramoglu G, Altintas B, Arica MY (2009): Adsorption kinetics and thermodynamic parameters of cationic dyes from aqueous solutions by using a new strong cation-exchange resin. Chemical Engineering Journal 152, 339-346
Çelebi H, Gök G, Gök O (2020): Adsorption capability of brewed tea waste in waters containing toxic lead (II), cadmium (II), nickel (II), and zinc (II) heavy metal ions. Scientific Reports 10, 17570
Çengeloğlu Y, Kır E, Ersöz M (2002): Removal of fluoride from aqueous solution by using red mud. Separation and Purification Technology 28, 81-86
de Jesus CPC, Antunes MLP, da Conceição FT, Navarro GRB, Moruzzi RB (2015): Removal of reactive dye from aqueous solution using thermally treated red mud. Desalination and Water Treatment 55, 1040-1047
Dinh V-P, Nguyen M-D, Nguyen QH, Do T-T-T, Luu T-T, Luu AT, Tap TD, Ho T-H, Phan TP, Nguyen TD, Tan LV (2020a): Chitosan-MnO2 nanocomposite for effective removal of Cr (VI) from aqueous solution. Chemosphere 257, 127147
Dinh V-P, Xuan TD, Hung NQ, Luu T-T, Do T-T-T, Nguyen TD, Nguyen V-D, Anh TTK, Tran NQ (2020b): Primary biosorption mechanism of lead (II) and cadmium (II) cations from aqueous solution by pomelo (Citrus maxima) fruit peels. Environmental Science and Pollution Research
Ewecharoen A, Thiravetyan P, Nakbanpote W (2008): Comparison of nickel adsorption from electroplating rinse water by coir pith and modified coir pith. Chemical Engineering Journal 137, 181-188
Feng N, Guo X, Liang S, Zhu Y, Liu J (2011): Biosorption of heavy metals from aqueous solutions by chemically modified orange peel. Journal of Hazardous Materials 185, 49-54
Hannachi Y, Shapovalov NA, Hannachi A (2009): Adsorption of nickel from aqueous solution by the use of low-cost adsorbents. Desalination and Water Treatment 12, 276-283
Jeon C (2011): Removal of As(V) from aqueous solutions by waste crab shells. Korean Journal of Chemical Engineering 28, 813-816
Khairul MA, Zanganeh J, Moghtaderi B (2019): The composition, recycling and utilisation of Bayer red mud. Resources, Conservation and Recycling 141, 483-498
Khajavian M, Wood DA, Hallajsani A, Majidian N (2019): Simultaneous biosorption of nickel and cadmium by the brown algae Cystoseria indica characterized by isotherm and kinetic models. Applied Biological Chemistry 62, 69
Krishnani KK, Meng X, Christodoulatos C, Boddu VM (2008): Biosorption mechanism of nine different heavy metals onto biomatrix from rice husk. Journal of Hazardous Materials 153, 1222-1234
Kumar PS, Ramalingam S, Kirupha SD, Murugesan A, Vidhyadevi T, Sivanesan S (2011): Adsorption behavior of nickel (II) onto cashew nut shell: Equilibrium, thermodynamics, kinetics, mechanism and process design. Chemical Engineering Journal 167, 122-131
Liu Z-r, Zhou S-q (2010): Adsorption of copper and nickel on Na-bentonite. Process Safety and Environmental Protection 88, 62-66
Lyu F, Niu S, Wang L, Liu R, Sun W, He D (2021): Efficient removal of Pb(II) ions from aqueous solution by modified red mud. Journal of Hazardous Materials 406, 124678
Malkoc E, Nuhoglu Y (2005): Investigations of nickel (II) removal from aqueous solutions using tea factory waste. Journal of Hazardous Materials 127, 120-128
Mondal NK, Samanta A, Dutta S, Chattoraj S (2017): Optimization of Cr (VI) biosorption onto Aspergillus niger using 3-level Box-Behnken design: equilibrium, kinetic, thermodynamic and regeneration studies. Journal of Genetic Engineering and Biotechnology 15, 151-160
Nadaroglu H, Kalkan E, Demir N (2010): Removal of copper from aqueous solution using red mud. Desalination 251, 90-95
Namasivayam C, Arasi DJSE (1997): Removal of congo red from wastewater by adsorption onto waste red mud. Chemosphere 34, 401-417
Namasivayam C, Yamuna R, Arasi D (2001): Removal of acid violet from wastewater by adsorption on waste red mud. Environmental Geology 41, 269-273
Ni F, He J, Wang Y, Luan Z (2015): Preparation and characterization of a cost-effective red mud/polyaluminum chloride composite coagulant for enhanced phosphate removal from aqueous solutions. Journal of Water Process Engineering 6, 158-165
Pradhan J, Das J, Das S, Thakur RS (1998): Adsorption of Phosphate from Aqueous Solution Using Activated Red Mud. Journal of Colloid and Interface Science 204, 169-172
Pradhan S, Shukla SS, Dorris KL (2005): Removal of nickel from aqueous solutions using crab shells. Journal of Hazardous Materials 125, 201-204
Sahu MK, Mandal S, Dash SS, Badhai P, Patel RK (2013): Removal of Pb(II) from aqueous solution by acid activated red mud. Journal of Environmental Chemical Engineering 1, 1315-1324
Shukla SR, Pai RS (2005): Adsorption of Cu(II), Ni(II) and Zn(II) on dye loaded groundnut shells and sawdust. Separation and Purification Technology 43, 1-8
Smičiklas I, Smiljanić S, Perić-Grujić A, Šljivić-Ivanović M, Mitrić M, Antonović D (2014): Effect of acid treatment on red mud properties with implications on Ni(II) sorption and stability. Chemical Engineering Journal 242, 27-35
Soner Altundoğan H, Altundoğan S, Tümen F, Bildik M (2000): Arsenic removal from aqueous solutions by adsorption on red mud. Waste Management 20, 761-767
Supanchaiyamat N, Jetsrisuparb K, Knijnenburg JTN, Tsang DCW, Hunt AJ (2019): Lignin materials for adsorption: Current trend, perspectives and opportunities. Bioresource Technology 272, 570-581
Thevannan A, Mungroo R, Niu CH (2010): Biosorption of nickel with barley straw. Bioresource Technology 101, 1776-1780
Vakili M, Deng S, Cagnetta G, Wang W, Meng P, Liu D, Yu G (2019): Regeneration of chitosan-based adsorbents used in heavy metal adsorption: A review. Separation and Purification Technology 224, 373-387
Wan Ngah WS, Teong LC, Hanafiah MAKM (2011): Adsorption of dyes and heavy metal ions by chitosan composites: A review. Carbohydrate Polymers 83, 1446-1456
Yang S, Wu Y, Aierken A, Zhang M, Fang P, Fan Y, Ming Z (2016): Mono/competitive adsorption of Arsenic(III) and Nickel(II) using modified green tea waste. Journal of the Taiwan Institute of Chemical Engineers 60, 213-221
Yang T, Wang Y, Sheng L, He C, Sun W, He Q (2020): Enhancing Cd(II) sorption by red mud with heat treatment: Performance and mechanisms of sorption. Journal of Environmental Management 255, 109866
Zhang L, Hu P, Wang J, Huang R (2016): Crosslinked quaternized chitosan/bentonite composite for the removal of Amino black 10B from aqueous solutions. International Journal of Biological Macromolecules 93, 217-225
Zhou X, Zhou X (2014): The unit problem in the thermodynamic calculation of adsorption using the Langmuir equation. Chemical Engineering Communications 201, 1459-1467
Zhu W, Wang J, Wu D, Li X, Luo Y, Han C, Ma W, He S (2017): Investigating the Heavy Metal Adsorption of Mesoporous Silica Materials Prepared by Microwave Synthesis. Nanoscale Research Letters 12, 323